CN103070147B - Double-bearing reel - Google Patents

Abstract

A kind of double-bearing reel, its stop knob is configured in the opposition side of handle assembling side, and in this double-bearing reel, easy palm wraps into.Double-bearing reel comprises reel main body (1), handle (2), spool shaft (16), reel (12) and controlling organization of jettisoninging (22).Reel main body possesses and has recess (6c) and first side cover (6a) of the first side of cover framework (5).Handle is supported on reel main body freely in the second side cover (6b) sideway swivel.Controlling organization (22) of jettisoninging has stop knob (42), the first plate (41a) and the second plate (42b).Stop knob (42) and axle support (7) screw, and not to be configured at recess (6c) from the mode that the first side cover is outstanding.First plate is configured to contact with first end face (16a) of stop knob and spool shaft.Second plate (41b) can contact with second end face (16b) of spool shaft.

Description

Double-bearing reel

Technical field

The present invention relates to double-bearing reel, be particularly provided with the double-bearing reel of the stop knob of controlling organization of jettisoninging in the opposition side of handle assembling side.

Background technology

In double-bearing reel, the stop knob of controlling organization of jettisoninging is configured in handle assembling side usually.On the other hand, be known to the double-bearing reel (such as with reference to patent document 1) that stop knob is configured in the opposition side of handle assembling side in the past.In existing double-bearing reel, stop knob has rotary knob member and screwed part.Screwed part is can to rotate integratedly and the mode of movement freely is vertically assemblied in rotary knob member.Thus, when making rotary knob member rotate, screwed part is retreated, and presses keep plate and brake spool shaft.Even if rotary knob member rotates and also can not retreat, do not move vertically relative to reel main body in handle assembling side.Thus, the clearance constant between reel main body and rotary knob member, can prevent foreign matter from invading the inside of rotary knob member.

Prior art document

Patent document

Patent document 1: Japanese Unexamined Patent Publication 2009-44990 publication.

Summary of the invention

The problem that invention will solve

In existing double-bearing reel, can prevent foreign matter from invading rotary knob member.But stop knob is given prominence to from the handle assembling side of reel main body.In double-bearing reel, sometimes hold reel main body palm in the opposition side of handle assembling side and wrap into while carry out the operation of reel or fishing rod.When wrapping into palm, the hand (being left hand when the double-bearing reel of right handles) of tossing about by the palmistry of gripping handle holds reel main body and fishing rod together.When carrying out this and wrapping into palm, when existing double-bearing reel, stop knob encounters the palm of the hand held, and not easy-to-use palm wraps into.

Problem of the present invention is to be configured in the double-bearing reel of the opposition side of handle assembling side at stop knob, easily wraps into palm.

For solving the means of problem

The double-bearing reel of first aspect possesses reel main body, handle, spool shaft, reel and controlling organization of jettisoninging.Reel main body has: framework; There is recess and first of the first side of cover framework the lid; Second lid of the second side of cover framework; And the axle support of framework is arranged in the first lid side.Handle is supported on reel main body freely in the second lid sideway swivel.One end of spool shaft is rotatably freely supported on axle support.Reel is assemblied in spool shaft and is rotated by the rotation of handle.Controlling organization of jettisoninging has stop knob, the first plate and the second plate.Stop knob can be supported on axle support rotatably, and the height of the first lid side of this stop knob is equal to or less than the face height of the first lid, and its result stop knob is placed in recess completely, not outstanding from the first lid.First plate be configured to can with an end contact of stop knob and spool shaft, and to be pressed by the rotation of stop knob.Second plate can contact with the other end of spool shaft.

In this double-bearing reel, the first lid being configured in the opposition side of the handle assembling side of reel main body has recess, and whole being configured in recess of stop knob is not given prominence to from the first lid.Therefore, namely use palm to wrap into the first lid side, stop knob also can not encounter palm.Thus, easily wrap into palm in the opposition side of handle assembling side.

The double-bearing reel of second aspect, in the double-bearing reel described in first aspect, stop knob is circular parts, and the outer peripheral face of stop knob is configured to the spaced apart gap operated at the inner peripheral surface with recess.In this case, because the outer peripheral face side at stop knob is provided with gap between the inner peripheral surface of recess, therefore, it is possible to carry out brake operating at the outer peripheral face of stop knob.Therefore easy rolling brake knob.

The double-bearing reel of the third aspect, in the double-bearing reel described in first or second aspect, the dismounting of axle support is assemblied in framework freely.In this case, the dismounting of axle support is assemblied in framework freely, therefore reel can be fetched into outside by unloading lower shaft support.

The double-bearing reel of fourth aspect, in the double-bearing reel described in the third aspect, axle support has the disassembling operations portion of the outer circumferential side being configured in stop knob.In this case, the disassembling operations of axle support is easy.

The double-bearing reel of the 5th aspect, in the double-bearing reel described in first or second aspect, axle support is integrally formed at framework.In this case, because framework and axle support form as one, therefore, it is possible to supporting drum axle accurately.

The double-bearing reel of the 6th aspect, in the double-bearing reel described in the either side in the 3rd to the 5th, stop knob has: circular operating portion; The seal department of assembly that diameter is less than operating portion; And the external thread part that diameter is less than seal department of assembly.Axle support has: seal configuration section, and seal department of assembly is configured in the inner circumferential side of seal configuration section; The internal thread part screwed with external thread part; And the bottom of assembling the first plate.Double-bearing reel also has the seal member configured contiguously with both between seal configuration section and seal department of assembly.

In this case, owing to being configured with seal member between seal department of assembly and seal configuration section, therefore liquid not easily invades bearing side from the gap between stop knob and axle support.

Invention effect

According to the present invention, stop knob is not to be configured in the recess of this first lid from the mode that the first lid of the opposition side of handle assembling side is outstanding.Therefore, namely use palm to wrap into the first lid side, stop knob also can not encounter palm.Thus, easily wrap into palm in the opposition side of handle assembling side.

Accompanying drawing explanation

Fig. 1 is the stereogram of the double-bearing reel of the first embodiment of the present invention.

Fig. 2 is the end view of the handle assembling side of above-mentioned double-bearing reel.

Fig. 3 is the cutaway view along the cutting line III-III in Fig. 2.

Fig. 4 is the cutaway view along the cutting line IV-IV in Fig. 2.

Fig. 5 is the partial sectional view of the first side cover side.

Fig. 6 is the cutaway view of the Handle axis of the first gear assembled portion.

Fig. 7 is the partial sectional view along the cutting line VII-VII in Fig. 6.

Fig. 8 is the figure suitable with Fig. 5 of the second embodiment.

Fig. 9 is the figure suitable with Fig. 5 of the 3rd embodiment.

Figure 10 is the figure suitable with Fig. 5 of other embodiments.

Description of reference numerals

1 reel main body; 2 handles; 5 frameworks; 6a first side cover; 6b second side cover; 6c recess; 7,107,207 axle supports; 12 reels; 16 spool shaft; 22,122,222 to jettisoning controlling organization; 25 second gears; 33 bearing assemble portions; Bottom 33d, 133d; 33g seal configuration section; 41a first plate; 41b second plate; 42,142,242 stop knobs; 42a operating portion; 42b seal department of assembly; 42c external thread part; 43O shape ring.

Embodiment

< first embodiment >

The structure > of < double-bearing reel

In FIG, the double-bearing reel of the first embodiment of the present invention is the reel of droplet-shaped.Double-bearing reel has: reel main body 1, be configured at the reel rotation handle 2 of the side (such as left side) of reel main body 1 and be assemblied in the reel 12 of the coiling of the inside of reel main body 1 in rotatable and dismounting mode freely.The drag force adjustment component 3 of drag force adjustment is provided with in reel main body 1 side of handle 2.

Handle 2 is handles of both hands handle type, the two one or two hand 2b at the handle arms 2a with such as metal tabular and the two ends being assemblied in handle arms 2a in rotatable mode.As shown in Figure 2, handle arms 2a is fixed on the end of Handle axis 30 in not revolvable mode by nut 2d.This nut 2d is prevented from rotating by being screwed on the retainer 2c of the lateral surface of handle arms 2a.

As shown in Figure 3 and Figure 4, reel main body 1 has: framework 5, be assemblied in framework 5 both sides and the first side cover 6a of the both sides of cover framework 5 and the second side cover 6b and dismounting are assemblied in the axle support 7 of the sidepiece of framework 5 freely.The example that first side cover 6a(first covers) be configured in the opposition side of handle 2, the example that the second side cover 6b(second covers) be configured in the assembling side of handle 2.

Framework 5 is such as the parts that the light metal such as aluminium alloy, magnesium alloy is made, and has: to separate predetermined space ground the first side plate 5a of configuring of mutually opposing mode and the second side plate 5b; And link multiple linking part 5c of the first side plate 5a and the second side plate 5b.Axle support 7 is equipped with freely in the first side plate 5a dismounting of the opposition side of this handle assembling side.The opening 5d of the circle that reel 12 can pass through is formed at the first side plate 5a.In opening 5d, be equipped with axle support 7 freely by such as bayonet mechanism 23 dismounting, axle support 7 is for taking out reel 12 from opening 5d side.The longer fishing rod assembling foot 4 in front and back for reel being assembled to fishing rod is formed with at two linking part 5c of downside.

First side cover 6a is the parts that the light metal such as aluminium alloy, magnesium alloy is made, and covers the outside of the first side plate 5a.First side cover 6a has circular recess 6c at central part.Recess 6c caves in being formed as point multiple stage.Circular knob opening 6d is formed at the central part of recess 6c.Axle support 7 exposes in knob opening 6d.First side cover 6a is clamped by axle support 7, and together with axle support 7 relative to framework 5 dismounting freely.Around axle support 7, be configured with detent mechanism 60 in the inner peripheral portion of the opening 6d of the first side cover 6a, the location during operation of spline when detent mechanism 60 is for carrying out the not operation of axle support 7 and axle support 7.

Second side cover 6b is the parts that the light metal such as aluminium alloy, magnesium alloy is made, and is screwed on the second side plate 5b of framework 5.Second side cover 6b is provided with the cover 9 of the boss portion 8 of the configuration section being arranged at spool shaft 16 and the opening of closed boss portion 8.Boss portion 8 is such as fixed by caulking to the second side cover 6b.Cover 9 screw is fixed on the second side cover 6b.The internal diameter of boss portion 8 is slightly larger than the external diameter of the gear part 32a of pinion 32 described later, and gear part 32a can enter into the inner circumferential side of boss portion 8.

Axle support 7 is rotatably assemblied in the first side cover 6a with the state clamping the first side cover 6a.Therefore, axle support 7 is deviate to be prevented from relative to the first side cover 6a.In addition, as shown in Figure 3, axle support 7 utilizes bayonet mechanism 23 dismounting to be assemblied in the first side plate 5a freely.Bayonet mechanism 23 has: multiple (such as three) lug boss 23a of tabular, and it is circumferentially configured in the peripheral part of axle support 7 and outstanding to radial outside at spaced intervals; And multiple (such as three) engaging recessed part 23b of channel-shaped, it is formed at the outside of the opening 5d of the first side plate 5a in the mode engaged with lug boss 23a.Turning cylinder support 7 utilizes bayonet mechanism 23 that axle support 7 is assemblied in the first side plate 5a, and the first side cover 6a is also assemblied in the first side plate 5a thus.

As shown in Figure 5, axle support 7 has: the bearing assemble portion 33 of assembling clutch shaft bearing 24a; And clamp the disassembling operations portion 34 of the first side cover 6a in the mode relatively rotated freely together with bearing assemble portion 33.Bearing assemble portion 33 is parts of plate-like, and its peripheral part 33a is chimeric with opening 5d.In addition, at peripheral part 33a, centered by the axle center of reel 12, be circumferentially formed with the multiple lug boss 23a from the peripheral part 33a described bayonet mechanism 23 outstanding to radial outside at spaced intervals.Central part in bearing assemble portion 33 gives prominence to the bearing incorporating section 33b of the tubular being formed with storage clutch shaft bearing 24a in tubular towards reel 12.Be formed with the assembly space 33c of the tubular of band ladder at bearing incorporating section 33b, clutch shaft bearing 24a is assemblied in the inner peripheral surface of this assembly space 33c.The the first discoideus plate 41a forming controlling organization 22 of jettisoninging described later is equipped with at the bottom 33d of assembly space 33c.The internal thread part 33e screwed with stop knob 42 described later is formed at bottom 33d.On the face contacted with disassembling operations portion 34 in bearing assemble portion 33, centered by the axle center of spool shaft 16, be circumferentially formed with multiple (such as two) positioning convex portion 33f, positioning convex portion 33f at spaced intervals outstanding to the direction of the axis parallel with reel 12.The seal configuration section 33g to tubular axially protruding outside is formed at the lateral surface in bearing assemble portion 33.

As shown in Figure 5, disassembling operations portion 34 is parts of the drum of band ladder, is fixed on bearing assemble portion 33 by not shown screwed part.Disassembling operations portion 34 is for carrying out disassembling operations to axle support 7.The lateral surface in disassembling operations portion 34 caves in a little than the lateral surface of the first side cover 6a.The rib 34a of the disassembling operations be configured in diametrically is formed in disassembling operations portion 34.Rib 34a is formed as than other parts to radially inner side and axially protruding outside.Be formed with opening 34b at the central part in disassembling operations portion 34, seal configuration section 33g is projected in this opening 34b.Multiple (such as two) the location indentations 34c engaged with positioning convex portion 33f is formed at the wall by bearing assemble portion 33 in disassembling operations portion 34.

As shown in Figure 3 and Figure 4, be configured with in framework 5: the reel 12 of coiling, it can be configured on the direction staggered with fishing rod; Level wind mechanism 15, it is for being wound up in reel 12 equably by fishline; And clutch operating member 17, it is the liner of thumb when carrying out thumb press.In addition, be configured with: gear mechanism 18 between framework 5 and the second side cover 6b, it is for being delivered to reel 12 and level wind mechanism 15 by the revolving force from handle 2; Clutch mechanism 13; Clutch control mechanism 19, it is for carrying out open and close controlling to clutch mechanism 13; Drag force mechanism 21, it is braked the rotation that reel 12 releases direction to line; And controlling organization 22 of jettisoninging, it is for adjusting the resistance during rotation of reel 12.

As shown in Figure 4, reel 12 has the flange part 12a of plate-like in both sides, has the coiling body 12b of tubular between two flange part 12a.In addition, reel 12 has the boss portion 12c of the tubular of the central portion in fact of the axis of the inner circumferential side being formed on coiling body 12b, and reel 12 such as combines the spool shaft 16 being fixed on through boss portion 12c in not revolvable mode by sawtooth.This fixing means is not limited to sawtooth and combines, and can use the various associated methods such as bond conjunction or spline combination.

The through second side plate 5b of spool shaft 16 also extends to the second side cover 6b.In the both sides of the boss portion 12c of reel 12, spool shaft 16 is rotatably freely supported on reel main body 1 by clutch shaft bearing 24a and the second bearing 24b.Clutch shaft bearing 24a is assemblied in axle support 7, second bearing 24b and is assemblied in the second side plate 5b.One example of the first end face 16a(mono-end face of spool shaft 16) and the second end face 16b(other end is one routine) be formed as chevron or arc-shaped highlightedly.The first end 16a of spool shaft 16 can contact with controlling organization 22 of jettisoninging with the second end 16b.

The engagement pin 13a forming clutch mechanism 13 is had at the breakthrough part partial fixing of the through second side plate 5b of spool shaft 16.Engagement pin 13a is along the through spool shaft 16 of diameter, and the two ends of engagement pin 13a are radially given prominence to.Ledge at these two ends can engage the end (being right-hand member in Fig. 2) of pinion 32 described later.

As shown in Figure 3, level wind mechanism 15 has: the second gear 25 engaged with the first gear 28 of gear mechanism 18 described later; Transverse cam axle 26; And fishline guiding piece 27.Transverse cam axle 26 is the spindle units being formed with the spiral groove 26a of intersection at outer peripheral face.Fishline guiding piece 27 engages with spiral groove 26a, and is moved back and forth abreast in the front of reel 12 and reel 12 by the rotation of transverse cam axle 26.

Gear mechanism 18 has: Handle axis 30; Rotatably be assemblied in the driven wheel 31 of Handle axis 30; The pinion 32 of the tubular engaged with driven wheel 31; And be assemblied in Handle axis 30 and the first gear 28 engaged with the second gear 25.Handle axis 30 is prohibited to release direction to line and rotates by the one-way clutch 40 of roll shape, and only can rotate to line coiling direction.One-way clutch 40 is assemblied in the second side cover 6b.The cardinal extremity of Handle axis 30 is rotatably freely supported on the second side plate 5b by bearing 20.In the inboard (being left side in Fig. 3) of driven wheel 31, ratchet 36 can integrally rotatably be assemblied in Handle axis 30.The first gear 28 is configured in the inboard of ratchet 36.Large diameter abutting part 30b is formed between the department of assembly of the ratchet 36 of Handle axis 30 and the department of assembly of the first gear 28.The rotation of Handle axis 30 is passed to driven wheel 31 via drag force mechanism 21.

As shown in Figure 4, pinion 32 is from the second side plate 5b to axially outside extension, and pinion 32 is the cartridges at spool shaft 16 its center through.Pinion 32 is movably assemblied in spool shaft 16 vertically.Pinion 32 has: the gear part 32a being formed at cardinal extremity; Be formed at end and the engaging piece 32b that can engage with engagement pin 13a; And the necking part 32c be configured between gear part 32a and engaging piece 32b.Driven wheel 31 engages with gear part 32a.Engagement pin 13a engages with engaging piece 32b.The clutch shifter 35 of clutch control mechanism 19 engages with necking part 32c.Pinion 32 by means of the operation of clutch operating member 17 or handle 2 center line C to the rotation of line coiling direction and in figure 3 upside shown in clutch on-position and the clutch open position shown in downside between move.Pinion 32 by bearing 29 by rotatable and be movably supported on the second side plate 5b vertically.

As shown in Figure 4, the first gear 28 links via torque limiter 39 and Handle axis 30.As shown in Figure 3, the first gear 28 engages with the second gear 25 of the transverse cam axle 26 being assemblied in level wind mechanism 15.

The structure > of < torque limiter

Torque limiter 39 is to prevent unnecessary masterpiece from arranging for the first gear 28 and the second gear 25 when level wind mechanism 15 breaks down.As shown in Figure 6 and Figure 7, torque limiter 39 has the pair of pin parts 51, force application part 52 and at least one the locking recess 53 that are configured at Handle axis 20.Force application part 52 is such as helical spring, and it exerts a force towards the first gear 28 to pair of pin parts 51.Locking recess 53 is formed at the inner peripheral surface of the first gear 28.In this embodiment, locking recess 53 is circumferentially provided with four at spaced intervals.

In Handle axis 30, be formed with through hole 30a, pin parts 51 are movably assemblied in through hole 30 diametrically throughly.Pin parts 51 comprise the head 51a of the curved surface with hemisphere shell shape and the diameter axle portion 51b less than head 51a.Pin parts 51 configure towards the mode of locking recess 53 with head 51a in through hole 30.Force application part 52 is configured in the outer circumferential side of the axle portion 51b of pair of pin parts 51, and is configured between a pair head 51a with compressive state.The line coiling direction downstream of locking recess 53 shown in the arrow R of the first gear 28 has the inclined-plane 53a of orthoscopic, and trip side has barrel surface 53b in a rotational direction.Therefore, usually, sell parts 51 press inclined-plane 53a and the rotation of Handle axis 30 is delivered to the first gear 28.Thus, when foreign matter is clipped in level wind mechanism 15, if powerful turning handle 2 and have unnecessary masterpiece for the first gear 28, then sell parts 51 and recede in through hole 30, Handle axis 30 dallies, and the first gear 28 is not easy breakage.The barrel surface 53b contacted with head 51a of locking recess 53 has inclined plane 53c as shown in Figure 7, and this inclined plane 53c intersects with the axle center of Handle axis 30.Inclined plane 53c is to tilt near the mode in the axle center of Handle axis 30 gradually towards driven wheel 31 side.Thus, when pin parts 51 exert a force to the first gear 28, produce the power of pressing first gear 28 in handle 2 side, the first gear 28 is exerted a force by abutting part 30 side, and the first gear 28 not easily rocks when rotated.

Clutch mechanism 13 is made up of the engaging piece 32b of engagement pin 13a and pinion 32.Clutch mechanism 13 can obtain clutch on-state and clutch off-state by the operation of clutch operating member 17.Under clutch on-state, the rotation of handle 2 is passed to reel 12.Under clutch off-state, reel 12 becomes the state that can rotate freely.

As shown in figures 1 and 3, the rear portion of clutch operating member 17 between the first side plate 5a and the second side plate 5b is configured in the rear of reel 12.In the first side plate 5a and the second side plate 5b of framework 5, be formed with elongated hole (not shown), clutch operating member 17 is rotatably freely supported on this elongated hole.Therefore, clutch operating member 17 can slide in the vertical direction along elongated hole.

Clutch control mechanism 19 has clutch shifter 35.Clutch shifter 35 is configured in the outer circumferential side of spool shaft 16, and by two pins (not shown) be supported to can with the axis parallel of spool shaft 16 mobile.In addition, spool shaft 16 can rotate relatively relative to clutch shifter 35.That is, even if spool shaft 16 rotates, clutch shifter 35 also non rotating.In addition, the central portion of clutch shifter 35 engages with the necking part 32c of pinion 32, and clutch shifter 35 can move up in the right and left of Fig. 3.By not shown spring, by all the time to the inside, the clutch connection direction in (left side in Fig. 3) exerts a force clutch shifter 35.

In such a configuration, in the normal state, pinion 32 is positioned at the clutch on-position of inner side, and pinion 32 engages with the engagement pin 13a of spool shaft 16 and becomes clutch on-state.On the other hand, when pinion is moved to outside by means of clutch shifter 35, pinion 32 is thrown off with the engaging of engagement pin 13a and becomes clutch off-state.Now, the gear part 32a of pinion 32 as shown in the downside of the axle center C at Fig. 3 be configured in the inner circumferential side of boss portion 8.Thus, when clutch off-state, pinion 32 not easily rocks.

As shown in Figure 4, drag force mechanism 21 has: for carrying out the drag force adjustment component 3 of adjustment operation to drag force; Integrally rotatably can be assemblied in the pressing plate 38 of Handle axis 30; And around Handle axis 30, be assemblied in the one-way clutch 40 of the second side cover 6b.Pressing plate 38 integrally rotatably can be linked to the inner ring 40a of one-way clutch 40.Pressing plate 38 pressed towards driven wheel 31 by the rotary manipulation by means of drag force adjustment component 3, make to produce between pressing plate 38 and driven wheel 31 to skid, drag force mechanism 21 pairs of reels 12 are braked.One-way clutch 40 in order to make drag force mechanism 21 action forbid, release direction to line and rotate by Handle axis 30.

< jettisonings the structure > of controlling organization

As shown in Figure 3 and Figure 4, controlling organization 22 of jettisoninging has: the first plate 41a configured in the mode at the two ends clipping spool shaft 16 and the second plate 41b; And for regulating the first plate 41a and the second plate 41b to the stop knob 42 of the chucking power of spool shaft 16.

The first plate 41a on the left of Fig. 3 is provided with one, and as previously mentioned, it is assemblied in the bottom 33d of the assembly space 33c in bearing assemble portion 33, and can contact with the first end 16a of spool shaft 16.Two the second plate 41b are assemblied in the boss portion 8 of the second side cover 6b.

As shown in Figure 5, stop knob 42 has: circular operating portion 42a; The seal department of assembly 42b that diameter is less than operating portion 42a; And the external thread part 42c that diameter is less than seal department of assembly 42b.Operating portion 42a is truncated cone shape in this embodiment.The outer circumferential side of operating portion 42a and disassembling operations portion 34 separate the configuration with gap operated.Stop knob 42 is configured at the recess 6c of the first side cover 6a in the mode of not giving prominence to from the lateral surface of the first side cover 6a.In this embodiment, owing to being also configured with disassembling operations portion 34 at recess 6c, therefore also separating with disassembling operations portion 34 and configure with gap.Seal department of assembly 42b is formed with the seal fitting recess 42d of ring-type.An example of O shape ring 43(seal member is equipped with) in seal fitting recess 42d.O shape ring 43 is configured to contact with the inner peripheral surface of seal configuration section 33g and seal fitting recess 42d.The internal thread part 33e in external thread part 42c and bearing assemble portion 33 screws.External thread part 42c can contact with the first plate 41a.

The method of operating > of < double-bearing reel

Under common state, clutch shifter 35 is (in Fig. 3 left side) pressing by the inside, makes pinion 32 move to clamped position thus.In this condition, pinion 32 engages with the engagement pin 13a of spool shaft 16 and becomes clutch on-state, revolving force from handle 2 is passed to reel 12 via Handle axis 30, driven wheel 31, pinion 32 and spool shaft 16, thus reel 12 rotates to line coiling direction.

When fishing, utilizing to suppress to tangle and jettisoninging controlling organization 22 to adjust brake force.Utilization jettisoning controlling organization 22 adjust brake force time, stop knob 42 is such as turned clockwise.So advance in stop knob 42 right side in Fig. 5, the narrower intervals between the first plate 41a and the second plate 41b, strengthens the brake force of spool shaft 16.In addition, when making stop knob 42 be rotated counterclockwise on the contrary, brake force weakens.

When brake force has adjusted, clutch operating member 17 is pressed downwards.Here, clutch operating member 17 disengaging configuration downwards moves.Further, by the movement of clutch operating member 17, clutch shifter 35 moves laterally, and the pinion 32 engaged with clutch shifter 35 also moves to equidirectional.Consequently, pinion 32 is thrown off with the engaging of engagement pin 13a of spool shaft 16, becomes clutch off-state.Under this clutch off-state, the rotation from Handle axis 30 can not be passed to reel 12 and spool shaft 16, and reel 12 becomes free rotation state.Form clutch off-state, with the thumb holding the hand that the first side cover 6a palm wraps into, thumb press carried out to reel 12, along the mode of vertical, reel is tilted to hang down fishline with spool shaft 16 simultaneously.So, by the weight of end fishing tackle, make reel 12 release direction to line and rotate, thus fishline is released.

Here, the mode that stop knob 42 is given prominence to the first side cover 6a not assembling the opposition side of side from handle 2 is configured in the recess 6c of the first side cover 6a.Therefore, namely use palm to wrap into the first side cover 6a side, stop knob 42 also can not encounter palm.Thus, the opposition side of assembling side at handle 2 easily wraps into palm.

Further, if having after releasing fishline, a fish snapped at the bait, then make handle 2 rotate to line coiling direction.So rotate and be delivered to the second gear 25 from the first gear 28, the fishline guiding piece 27 of level wind mechanism 15 moves back and forth along spool shaft direction in the front of reel 12.Thus fishline is wound on reel 12 equably.When level wind mechanism 15 action, owing to being attached with the main causes such as foreign matter on transverse cam axle 26, fishline guiding piece 27 becomes and can not move sometimes.In this case, if forced rotating handle 2, then have large torque between the first gear 28 and the second gear 25.If effect exceedes the torque of allowing torque on the first gear 28, then sell that parts 51 overcome the active force of force application part 52 and back to the inside of through hole 30a, Handle axis 30 rotates relative to the first gear 28.Thus, the torque of transmitting is limited.Here, be configured at Handle axis 30 for the pin parts 51 and force application part 52 limiting transmitting torque, in the first gear 28, only form recess 53, therefore, it is possible to make the first gear 28 densification.

< second embodiment >

In explanation after the second embodiment, the explanation of the structure member identical with the first embodiment and action are omitted the description.

As shown in Figure 8, controlling organization 122 of jettisoninging has: stop knob 142, first plate 41a and the second plate 41b and the sound generating mechanism 145 of sounding when operating stop knob 142.In the first embodiment, stop knob 42 is moved vertically by rotary manipulation, and in this second embodiment, stop knob 142 does not move vertically.

The bearing assemble portion 133 of axle support 107 has the knob department of assembly 170 being fixed on bottom 133d.Knob department of assembly 170 is such as the parts of metal tubular, and it has: be formed at one end inner peripheral surface and the first internal thread part 170a screwed with stop knob 142; Be formed at the first external thread part 170b of other end outer peripheral face; And the large diameter first edge part 170c be formed between the first internal thread part 170a and the first external thread part 170b.First external thread part 170b is left hand thread.The retaining member 144 for preventing stop knob 142 from deviating from is equipped with in knob department of assembly 170.

Stop knob 142 can rotate integrally and movably be sticked in knob department of assembly 170 vertically.Stop knob 142 is configured at the recess 6c of the first side cover 6a in the mode of not giving prominence to from the first side cover 6a.Stop knob 142 has: screwed part 143; The first knob 146 having bottom tube-like engaged with screwed part 143; And the second knob 147 of the first knob 146 is fixed in the mode being formed with space between the first knob 146.

First knob 146 has: the knob body 155 having bottom tube-like; Can to be integrally rotatably assemblied in knob body 155 and the engaging part 156 engaged with screwed part 146; And the anticreep spring 157 preventing engaging part 156 from deviating from relative to knob body 155.Knob body 155 is such as the parts having bottom tube-like that the light-alloys such as aluminium alloy are made.Circumferentially be provided with multiple (such as four) connect apertures 155a at spaced intervals in the bottom of knob body 155, connect apertures 155a is used for can integrally rotatably linking engaging part 156.In addition, the housing recess 155b of the tubular of the boss portion 156a described later of storage engaging part 156 is formed in the bottom of knob body 155.Be formed with the second internal thread part 155c screwed with the second knob 147 at the inner peripheral surface of knob body 155, be formed with the locking groove 155d of the ring-type for hook anticreep spring 157 at the bottom side of the second internal thread part 155c.

Engaging part 156 is parts of the drum of the belt edge be made up of the synthetic resin such as polyacetals, polyamide.Be formed to the outstanding boss portion 156a in knob body 155 side at the center of engaging part 156, be formed with oblong connecting hole 156b at boss portion 156a, the head 143a of this connecting hole 156b and screwed part 143 is can to rotate integrally and the mode of movement freely vertically engages.The protruding 156c of the link chimeric with connect apertures 155a is formed highlightedly on the surface (being left surface in Fig. 8) opposed with the bottom of knob body 155 of engaging part 156.The a large amount of sounding recess 156d forming sound generating mechanism 145 are circumferentially formed at spaced intervals at the back side (being right flank in Fig. 8) of engaging part 156.

Anticreep spring 157 is such as that the elastic wire made by stainless steel alloy is bent into hexagon and the spring members formed.

Second knob 147 is rotatably freely supported on the first edge part 170c of knob department of assembly 170.Second knob 147 is parts of the tubular of belt edge, and it has large diameter Second Edge edge 147a and the diameter cylindrical portion 147b less than Second Edge edge 147a.Second knob 147 is such as made up of light-alloys such as aluminium alloys, is formed with the accommodation space 147c of the tubular can receiving retaining member 144 at the inner peripheral surface of cylindrical portion 147b.Be formed with opening 147d at the inner peripheral surface of Second Edge edge 147a, the first edge part 170c of knob department of assembly 170 can through this opening 147d.At the outer circumferential side of the first edge part 170c, the thickness of Second Edge edge 147a is formed as thinner than the first edge part 170c.The the second external thread part 147e screwed with the second internal thread part 155c of knob body 155 is formed at the outer peripheral face of cylindrical portion 147b.

Screwed part 143 is the bolt members of the screw spindle part 143b having large diameter head 143a and give prominence to from head 143a.Head 143a has and a part for circle is cut away in parallel with each other and the oblong cross section that formed.The connecting hole 156b of head 143a and engaging part 156 is can to rotate integrally and the mode of movement freely vertically engages.The locking groove 143c of arc-shaped is formed in the face by screw spindle part 143b side of head 143a.Locking one end having helical spring 149 in locking groove 143c.The other end of helical spring 149 is engaging in the terminal surface of knob department of assembly 170.Helical spring 149 is assemblied between head 143a and knob department of assembly 170 with compressive state at the outer circumferential side of screw spindle part 143b.By this helical spring 149, rocking of screwed part 143 can be suppressed.The 3rd external thread part 143d screwed with the first internal thread part 170a is formed at the outer peripheral face of the end side of screw spindle part 143b.The terminal part of screw spindle part 143b can contact with the first plate 41a.

Retaining member 144 is such as the parts of the thick cyclinder shape be made up of light metals such as aluminium alloys, its be for by the second knob 147 with rotatable and the mode anticreep of movement vertically can not be fixed on the nut part of knob department of assembly 170.Retaining member 144 has the 3rd internal thread part 144a screwed with the first external thread part 170b of knob department of assembly 170.3rd internal thread part 144a is the same with the first external thread part 170b is left hand thread.Retaining member 144 is configured in the accommodation space 147c of the second knob 147.Thus, retaining member 144 can be fixed on knob department of assembly 170 with the state be assemblied in accommodation space 147c.In addition, when retaining member 144 is fixed on knob department of assembly 170, because the Thickness Ratio first edge part 170c of Second Edge edge 147a is thin, therefore the second knob 147 easily rotates.In addition, formed towards engaging part 156 ground in retaining member 144 useful in storage sound generating mechanism 145 installing hole 144b.

Sound generating mechanism 145 has: the described sounding recess 156d being formed at engaging part 156; Movably be assemblied in the impact pin 145a of installing hole 144b; And to the helical spring 145b that impact pin 145a exerts a force towards sounding recess 156d.Therefore, impact pin 145a is exerted a force towards knob body 155 to engaging part 156 by helical spring 145b.Consequently, stop knob 142 entirety is exerted a force to the direction leaving knob department of assembly 170 by helical spring 145b.Therefore, as shown in Figure 8, in stop knob 142, due to the active force of helical spring 145b, make to form gap between stop knob 142 and knob department of assembly 170, the amount in this gap is the difference of the thickness of the thickness of the Second Edge edge 147a of the second knob 147 and the first edge part 170c of knob department of assembly 170.Therefore, stop knob 142 can not rock vertically.

Jettisoning in controlling organization 122 at the second such embodiment, also make the first knob 146 of stop knob 142 such as turn clockwise.So screwed part 143 advances on the right side of Fig. 8, the narrower intervals between the first plate 41a and the second plate 41b, strengthens the brake force of spool shaft 16.In addition, when making the first knob 146 rotate counterclockwise on the contrary, screwed part brake force weakens.

Also the action effect identical with the first embodiment is played in the second embodiment formed like this.Further, even if carry out rotating operation to the first knob 146 of stop knob 142, the first knob 146 also can not move vertically, and therefore foreign matter etc. not easily invade inside.

< the 3rd embodiment >

In the first embodiment and the second embodiment, axle support 7(or 107) relative to framework 5 the first side plate 5a dismounting freely, and as shown in Figure 9, in the third embodiment, the axle support 207 of supporting drum axle 16 is integrally formed at the first side plate 205a.Therefore, axle support 207 does not have disassembling operations portion.In addition, the knob department of assembly 270 of tubular is formed at the lateral surface of axle support 207.

Controlling organization 222 of jettisoninging has stop knob 242, first plate 41a and the second plate 41b.Stop knob 242 is configured at the recess 6c of the first side cover 6a in the mode of not giving prominence to from the first side cover 6a.The knob 246 having bottom tube-like that stop knob 242 has spindle unit 243 and engages with spindle unit 243.

Be formed with oblong connecting hole 246b at the central part of the bottom 246a of knob 246, the head 243a of this connecting hole 246b and spindle unit 243 is can to rotate integrally and mobile mode freely engages vertically.In addition, be formed with at the inner peripheral surface of the cylinder portion 246c of knob 246 the internal thread part 243d screwed with external thread part 243e.

The axle portion 243b that spindle unit 243 has large diameter head 243a and gives prominence to from head 243a.Head 243a has and a part for circle is cut away in parallel with each other and the oblong cross section that formed.The connecting hole 246b of head 243a and knob 246 is can to rotate integrally and mobile mode freely engages vertically.The terminal part of axle portion 243b can contact with the first plate 41a.

In the third embodiment, also can by the dismounting enabling the second side cover 6b dismounting carry out reel.

The 3rd embodiment formed like this is utilized also to play the action effect identical with the first embodiment.

< feature >

Above-mentioned embodiment can show as following content.

(A) double-bearing reel possesses: reel main body 1; Handle 2; Spool shaft 16; Reel 12 and controlling organization 22 of jettisoninging.Reel main body 1 has: framework 5; There is recess 6c and the first side cover 6a of the first side of cover framework 5; Second side cover 6b of the second side of cover framework 5; And the axle support 7 of framework 5 is arranged in the first side cover 6a side.Handle 2 is supported on reel main body 1 freely in the second side cover 6b sideway swivel.One end of spool shaft 16 is rotatably freely supported on axle support 7.Reel 12 is assemblied in spool shaft 16 and is rotated by the rotation of handle 2.Controlling organization 22 of jettisoninging has stop knob 42, first plate 41a and the second plate 41b.Stop knob 42 can be supported on axle support 7 rotatably, and not to be configured at recess 6c from the mode that the first side cover 6a is outstanding.First plate 41a is configured to contact with the first end face 16a of stop knob 42 and spool shaft 16, and is pressed by the rotation of stop knob 42.Second plate 41b can contact with the second end face 16b of spool shaft 16.

In this double-bearing reel, the first side cover 6a that the handle 2 being configured in reel main body 1 assembles the opposition side of side has recess 6c, and stop knob 42 is not to be configured at recess 6c from the mode that the first side cover 6a is outstanding.Therefore, namely use palm to wrap into the first side cover 6a side, stop knob 42 also can not encounter palm.The opposition side of therefore assembling side at handle 2 easily wraps into palm.

(B) in double-bearing reel, stop knob 42 is circular parts, and the outer peripheral face of stop knob 42 is configured to the spaced apart gap operated with recess 6c.In this case, because the outer peripheral face side at stop knob 42 is provided with gap between recess 6c, therefore, it is possible to carry out brake operating at the outer peripheral face of stop knob 42.Therefore easy rolling brake knob 42.

(C) in double-bearing reel, axle support 7 dismounting is assemblied in framework 5 freely.In this case, axle support 7 dismounting is assemblied in framework 5 freely, therefore reel 12 can be fetched into outside by unloading lower shaft support 7.

(D) in double-bearing reel, axle support 7 has the disassembling operations portion 34 of the outer circumferential side being configured in stop knob 42.In this case, the disassembling operations of axle support 7 is easy.

(E) in double-bearing reel, axle support 207 is integrally formed at the first side plate 205a of framework 205.In this case, because framework 205 and axle support 207 form as one, therefore, it is possible to supporting drum axle 16 accurately.

(F) in double-bearing reel, stop knob 42 has: circular operating portion 42a; The seal department of assembly 42b that diameter is less than operating portion 42a; And the external thread part 42c that diameter is less than seal department of assembly 42b.Axle support 7 has: seal configuration section 33g, and seal department of assembly 42b is configured in the inner circumferential side of seal configuration section 33g; The internal thread part 33e screwed with external thread part 42c; And the bottom 33d of assembling the first plate 41a.Double-bearing reel also has the O shape ring 43 configured contiguously with both between seal configuration section 33g and seal department of assembly 42b.

In this case, owing to being configured with O shape ring 43 between seal department of assembly 42b and seal configuration section 33g, therefore liquid not easily invades bearing side from the gap between stop knob 42 and axle support 7.

Other embodiments of < >

A () in the above-described embodiment, is illustrated for manual double-bearing reel, but the present invention also can be applied to electronic double-bearing reel.In addition, the double-bearing reel that handle rotates to line releasing direction can also be applied the present invention to.In addition, be illustrated for the double-bearing reel of right handles, but the present invention also can be applied to the double-bearing reel of left handle.

B () also can be configured to the rib of prolongation disassembling operations to cover stop knob 42.Coming off of stop knob can be prevented thus.Now preferably, make the curved surface that the surface of the first lid is formed as along the palm wrapped into palm, make the surface of the rib of disassembling operations for and this curved surface continuous print curved surface.Thus, stop knob itself can not be given prominence to from the curved surface of the imaginary surface as the first lid, and the shape that the easy palm of maintenance wraps into, the exposed surface of stop knob itself can be increased and processing ease is carried out simultaneously.

C () in the above-described embodiment, stop knob 42 and axle support 7 are screwed, but the present invention is not limited thereto.As long as stop knob can be supported on axle support and can press the first plate 41a rotatably, then can be any structure.Such as, as shown in Figure 10, the axle portion of stop knob 342 is rotatably assemblied in axle support 307, and setting can be passed through to rotate and the cam part 346 with inclined plane of movement vertically on stop knob 342.Also can be configured to convert the rotation of stop knob 342 to axial movement to press the first plate 41a by this cam part 346.

Claims (6)

1. a double-bearing reel, possesses:

Reel main body, has: framework; There is recess and cover first of the first side of described framework and cover; Cover the second lid of the second side of described framework; And the axle support of described framework is arranged in described first lid side;

Handle, is supported on described reel main body freely in described second lid sideway swivel;

Spool shaft, one end of this spool shaft is rotatably freely supported on described axle support;

Reel, is assemblied in described spool shaft and is rotated by the rotation of described handle; And

Jettisoning controlling organization, have: stop knob, this stop knob can be supported on described axle support rotatably, and described stop knob is not to be configured at described recess from the mode that the lateral surface of described first lid is outstanding; First plate, this first plate be configured to can with an end contact of described stop knob and described spool shaft, and this first plate is pressed by the rotation of described stop knob; With second plate that can contact with the other end of described spool shaft.

2. double-bearing reel according to claim 1, wherein,

Described stop knob is circular parts, and the outer peripheral face of described stop knob is configured to the spaced apart gap operated at the inner peripheral surface with described recess.

3. double-bearing reel according to claim 1 and 2, wherein,

The dismounting of described axle support is assemblied in described framework freely.

4. double-bearing reel according to claim 3, wherein,

Described axle support has the disassembling operations portion of the outer circumferential side being configured in described stop knob.

5. double-bearing reel according to claim 1 and 2, wherein,

Described axle support is integrally formed at described framework.

6. double-bearing reel according to claim 3, wherein, described stop knob has: circular operating portion; The seal department of assembly that diameter is less than described operating portion; And the external thread part that diameter is less than described seal department of assembly,

Described axle support has: seal configuration section, and described seal department of assembly is configured in the inner circumferential side of seal configuration section; The internal thread part screwed with described external thread part; And assemble the bottom of described first plate,

Described double-bearing reel also has the seal member configured contiguously with both between described seal department of assembly and described seal configuration section.